Secure analysis application for accessing web resources

ABSTRACT

Embodiments described herein may be directed to systems, methods, apparatuses, devices, computer program products, computer-executable instructions, and/or applications for securely and anonymously accessing web resources and customizable attribution of identity. In accordance with the present disclosure, a user may inspect and analyze a webpage as well as the underlying source code from an “arm&#39;s length” using a secure analysis application to prevent exposure on the user&#39;s local machine. The secure analysis application may provide increased flexibility in masking and/or modifying the user&#39;s digital persona to external websites. Additionally, the secure analysis application may be integrated with a translation service to translate textual web content without the web content provider being alerted that a translation is taking place.

CROSS REFERENCE TO RELATED APPLICATION

This application is a continuation application of, and claims priorityto, U.S. patent application Ser. No. 15/049,075 filed on Feb. 20, 2016,which is a nonprovisional application of, and claims priority to, U.S.Provisional Patent Application No. 62/118,862 filed on Feb. 20, 2015,the disclosures of which are hereby incorporated by reference in theirentirety.

TECHNICAL FIELD

Embodiments disclosed herein relate to a secure analysis application foraccessing web resources.

BACKGROUND

When a user navigates an unsecure network such as the World Wide Web(e.g., the Internet), the user may be exposed to a variety of datasecurity risks. Accordingly, a need exists for increased web browsingsecurity.

SUMMARY

In some embodiments, a computing apparatus is provided. The computingapparatus defines a first location in a network and comprises: at leastone memory comprising instructions; and at least one processing deviceconfigured for executing the instructions, wherein the instructionscause the at least one processing device to perform the operations of:establishing, using a secure analysis application comprised in the atleast one memory, a web browsing session with the network; selecting,using a traffic routing unit comprised in the at least one processingdevice, a secure web container through which web content is to beaccessed during the web browsing session, wherein the secure webcontainer defines a second location in the network different than thefirst location; selecting, using the traffic routing unit, an egressnode through which the web content is to be routed during the webbrowsing session, wherein the egress node defines a third location inthe network different than the first location and the second location;and displaying, using a graphical processing unit (GPU) comprised in theat least one processing device, the web content to a user of thecomputing apparatus.

In some embodiments, the instructions further cause the at least oneprocessing device to perform the operations of: generating, using acontent management unit of the at least one processing device, a requestto receive, at the secure web container, the web content from a webserver; and transmitting, using the traffic routing unit, the request tothe secure web container, wherein the request is transmitted to the webserver from the secure web container via the network by routing therequest through the egress node, and wherein the web server is unable todetermine at least one of the first location and the second location.

In some embodiments, the web content is received at the secure webcontainer from the web server via the network in response totransmitting the request to the web server, and wherein the web serverdefines a fourth location in the network different than the firstlocation, the second location, and the third location.

In some embodiments, the instructions further cause the at least oneprocessing device to perform the operations of: identifying, using atranslation unit associated with the secure web container, textcomprised in the web content, wherein the text defines a first language;extracting, using the translation unit, the text from the web context;transmitting, using the translation unit, the text to a translationservice for translation, wherein the translation service is unable todetermine the fourth location; and receiving, using the translation unitand at the secure web container, translated text defining a secondlanguage different than the first language, wherein displaying the webcontent to the user of the computing apparatus comprises accessing thetranslated text using the translation unit.

In some embodiments, the instructions further cause the at least oneprocessing device to perform the operations of: storing, using a storagemapping unit associated with the secure web container, at least one ofthe web content, the text, and the translated text in a cloud-basedstorage platform.

In some embodiments, selecting the secure web container comprisesselecting two or more secure web containers through which the webcontent is to be accessed, and wherein each of the two or more secureweb containers defines a different location in the network.

In some embodiments, selecting the egress node comprises selecting twoor more egress nodes through which the web content is to be routed, andwherein each of the two or more egress nodes defines a differentlocation in the network.

In some embodiments, a non-transitory computer readable medium isprovided. The non-transitory computer readable medium defines a firstlocation in a network and comprises code is provided, wherein the code,when executed by at least one processing device of a computingapparatus, causes the at least one processing device to perform theoperations of: establishing, using a secure analysis applicationcomprised in the at least one memory, a web browsing session with thenetwork; selecting, using a traffic routing unit comprised in the atleast one processing device, a secure web container through which webcontent is to be accessed during the web browsing session, wherein thesecure web container defines a second location in the network differentthan the first location; selecting, using the traffic routing unit, anegress node through which the web content is to be routed during the webbrowsing session, wherein the egress node defines a third location inthe network different than the first location and the second location;and displaying, using a graphical processing unit (GPU) comprised in theat least one processing device, the web content to a user of thecomputing apparatus.

In some embodiments, the non-transitory computer readable medium furthercomprises code that, when executed by the at least one processing deviceof the video content server, causes the at least one processing deviceto perform the operations of: generating, using a content managementunit of the at least one processing device, a request to receive, at thesecure web container, the web content from a web server; andtransmitting, using the traffic routing unit, the request to the secureweb container, wherein the request is transmitted to the web server fromthe secure web container via the network by routing the request throughthe egress node, and wherein the web server is unable to determine atleast one of the first location and the second location.

In some embodiments, the web content is received at the secure webcontainer from the web server via the network in response totransmitting the request to the web server, and wherein the web serverdefines a fourth location in the network different than the firstlocation, the second location, and the third location.

In some embodiments, the non-transitory computer readable medium furthercomprises code that, when executed by the at least one processing deviceof the video content server, causes the at least one processing deviceto perform the operations of: identifying, using a translation unitassociated with the secure web container, text comprised in the webcontent, wherein the text defines a first language; extracting, usingthe translation unit, the text from the web context; transmitting, usingthe translation unit, the text to a translation service for translation,wherein the translation service is unable to determine the fourthlocation; and receiving, using the translation unit and at the secureweb container, translated text defining a second language different thanthe first language, wherein displaying the web content to the user ofthe computing apparatus comprises accessing the translated text usingthe translation unit.

In some embodiments, the non-transitory computer readable medium furthercomprises code that, when executed by the at least one processing deviceof the video content server, causes the at least one processing deviceto perform the operations of: storing, using a storage mapping unitassociated with the secure web container, at least one of the webcontent, the text, and the translated text in a cloud-based storageplatform.

In some embodiments, selecting the secure web container comprisesselecting two or more secure web containers through which the webcontent is to be accessed, and wherein each of the two or more secureweb containers defines a different location in the network.

In some embodiments, selecting the egress node comprises selecting twoor more egress nodes through which the web content is to be routed, andwherein each of the two or more egress nodes defines a differentlocation in the network.

In some embodiments, a method is provided. The method comprises:establishing, using a secure analysis application comprised in at leastone memory of a computing apparatus defining a first location in anetwork, a web browsing session with the network; selecting, using atraffic routing unit comprised in at least one processing device of thecomputing apparatus, a secure web container through which web content isto be accessed during the web browsing session, wherein the secure webcontainer defines a second location in the network different than thefirst location; selecting, using the traffic routing unit, an egressnode through which the web content is to be routed during the webbrowsing session, wherein the egress node defines a third location inthe network different than the first location and the second location;and displaying, using a graphical processing unit (GPU) comprised in theat least one processing device, the web content to a user of thecomputing apparatus.

In some embodiments, the method further comprises: generating, using acontent management unit of the at least one processing device, a requestto receive, at the secure web container, the web content from a webserver; transmitting, using the traffic routing unit, the request to thesecure web container; transmitting, from the secure web container andusing a second traffic routing unit associated with the secure webcontainer, the request to the web server via the network by routing therequest through the egress node, wherein the web server is unable todetermine at least one of the first location and the second location.

In some embodiments, the method further comprises: receiving, using thesecond traffic routing unit, the web content at the secure web containerfrom the web server via the network in response to transmitting therequest to the web server, wherein the web server defines a fourthlocation in the network different than the first location, the secondlocation, and the third location.

In some embodiments, the method further comprises: identifying, using atranslation unit associated with the secure web container, textcomprised in the web content, wherein the text defines a first language;extracting, using the translation unit, the text from the web context;transmitting, using the translation unit, the text to a translationservice for translation, wherein the translation service is unable todetermine the fourth location; and receiving, using the translation unitand at the secure web container, translated text defining a secondlanguage different than the first language, wherein displaying the webcontent to the user of the computing apparatus comprises accessing thetranslated text using the translation unit.

In some embodiments, selecting the secure web container comprisesselecting two or more secure web containers through which the webcontent is to be accessed, and wherein each of the two or more secureweb containers defines a different location in the network.

In some embodiments, selecting the egress node comprises selecting twoor more egress nodes through which the web content is to be routed, andwherein each of the two or more egress nodes defines a differentlocation in the network.

BRIEF DESCRIPTION OF THE DRAWINGS

Reference is now made to the following detailed description, taken inconjunction with the accompanying drawings. It is emphasized thatvarious features may not be drawn to scale and the dimensions of variousfeatures may be arbitrarily increased or reduced for clarity ofdiscussion. Further, some components may be omitted in certain figuresfor clarity of discussion.

FIG. 1 shows an exemplary system for providing a secure web browsingexperience, in accordance with some embodiments of the disclosure;

FIG. 2 shows an exemplary computing environment for providing a secureanalysis application, in accordance with some embodiments of thedisclosure;

FIG. 3 shows an exemplary user interface of a secure web browsingexperience, in accordance with some embodiments of the disclosure;

FIG. 4 shows an exemplary process flow for securely accessing webcontent, in accordance with some embodiments of the disclosure; and

FIG. 5 shows an exemplary process flow for translating text included inweb content, in accordance with some embodiments of the disclosure.

DETAILED DESCRIPTION

Introduction

Embodiments described herein may be directed to systems, methods,apparatuses, devices, computer program products, computer-executableinstructions, and/or applications for securely and anonymously accessingweb resources and customizable attribution of identity. In accordancewith the present disclosure, a user may inspect and analyze a webpage aswell as the underlying source code from an “arm's length” using a secureanalysis application to prevent exposure on the user's local machine.The secure analysis application may provide increased flexibility inmasking and/or modifying the user's digital persona to externalwebsites.

Further in accordance with the present disclosure, the secure analysisapplication may be integrated with a translation service to translatetextual web content without the web content provider being alerted thata translation is taking place. The secure analysis application mayadditionally or alternatively be integrated with a temporal and/orpersistent cloud-based storage platform that allows data to be storedbetween sessions and selectively shared among users in an organization.

System Operation

Referring now to the Figures, FIG. 1 shows an exemplary system 100 forproviding a user 102 with a secure and anonymous web browsing experienceas described herein. Using a secure analysis application 104 (e.g., aweb browser application) running on a user device 106, the user 102 mayinitiate a web browsing session to access web content via a network(e.g., the Internet) using one or more secure web containers 108. Insome embodiments, initiating a web browsing session includesestablishing a communication connection between the user device 106 andone or more other devices based at least in part on one or more wirelessand/or wired communication protocols as described herein.

During the secure web browsing session and via the secure analysisapplication 104, the user 102 may select one or more secure webcontainers 108 (e.g., separate web browsers each having a differentlocation (e.g., Internet Protocol (IP) address) and/or identity (e.g.,device identification number) than the secure analysis application 104and/or the user device 106 in the network) through which the web contentmay be accessed by the user 102. In this way, the one or more secure webcontainers 108 may serve as separate and secure proxy web browsers forproviding the user 202 with the web content while insulating the secureanalysis application 104 and/or the user device 106 (and thus the user102) from unwanted location and/or identity exposure in the network.

Additionally, during the secure web browsing session, the user 102 mayselect one or more egress nodes 110 (e.g., router outputs through whichan IP data packet (e.g., the web content) enters a public network suchas the Internet (e.g., the network)) through which the web content, aswell as any other data transmitted and/or received during the secure webbrowsing session, is to be routed. The one or more egress nodes 110 mayeach have a different location and/or identity than the secure analysisapplication 104, the user device 106, and/or the one or more secure webcontainers 108 in the network. As such, selecting the one or more egressnodes 110 through which web content is to be routed provides anadditional layer of security and anonymity.

For example, when the user 102 accesses the web content via the secureanalysis application 104, a selected secure web container 108 (e.g.,secure web container 1 of FIG. 1), and a selected egress node 110 (e.g.,egress node 1 of FIG. 1), only the identity and/or the location of theselected egress node 110 may be exposed in the network (as opposed tothe location and/or the identity of the secure analysis application 104,the user device 106, and/or the selected secure web container 108). Bynot sharing the location and/or the identity of the secure analysisapplication 104, the user device 106, and/or the selected secure webcontainer 108 and instead only sharing the location and/or the identityof the selected egress node 110, the location and/or the identity of theuser 102 may be effectively protected during the secure web browsingsession.

As illustrated in FIG. 1, the web content may be accessed from one ormore web servers 112, which are configured to receive web contentrequests from the one or more egress nodes 110. However, even though theuser 102 may initiate a web content request via the secure analysisapplication on the user device 206 and using the one or more secure webcontainers 108, only the location and/or the identity of the one or moreegress nodes 110 (and not the locations and/or identities of the secureanalysis application 104, the user device 106, and/or the one or moresecure web containers 108) may be identified by the one or more webservers 112 upon receipt of the web content request.

Because the location and/or the identity of the one or more secure webcontainers 108 (as well as the secure analysis application 204 and theuser device 206) may not be provided to and/or identified by the one ormore content servers 112, the one or more content servers 112 may beunaware of the web content's final destination location and/or identity.Further, the one or more content servers 112 may be unaware of anyprocessing and/or requests (e.g., application programming interface(API) requests) to be performed to the web content. In this way, theuser 102 may utilize the secure analysis application 104 to modify,change, select, and/or otherwise control the location and/or identityprovided to various devices (e.g., web servers 112) on the network.

For example, upon receipt of the web content from the one or more webservers 112, the one or more secure web containers 108 may process theweb content to identify and/or extract text included in the web content.The one or more secure web containers 108 may then transmit theextracted text to a translation service 114 for translation. In someembodiments, the translation service 114 may be performed and/oroperated by a third party device.

Because the one or more secure web containers 108 extracted andtransmitted text from the web content to the translation service 114 (asopposed to simply transmitting the web content and/or a universalresource locator (URL) of the web content to the translation service114), the translation service 114 may be unaware of the web content'sorigin location and/or identity. In this way, embodiments describedherein provide a “double-blind” manner of providing an anonymoustranslation service of the web content (e.g., a web page that includestext) in the sense that both the provider of the web content (e.g., theone or more web servers 112) and the translator of the web content(e.g., the translation service 114) are unaware of each other, as wellas any actions previously and/or to be performed to the web content.

After translation of the text is completed by the translation service114, the one or more secure web containers 108 may receive translatedtext (e.g., a transformed version of the text extracted from the webcontent) from the translation service 114. The one or more secure webcontainers 108 may generate transformed web content (e.g., a web pagethat displays text in a language different than the language of the textextracted from the web content) using the translated text. In thismanner, the user 102 may utilize various elements described herein toperform anonymous text translations of text included in web content(e.g., web pages) and to generate transformed web content based on thetext translations.

The one or more secure web containers 108 may transmit the web content,extracted text, translated text, transformed web content, locationand/or identity information associated with the user 102, the secureanalysis application 104, the user device 106, the one or more secureweb containers 108, the one or more egress nodes 110, the one or moreweb servers 112, and/or the translation service 114, user preferences,settings, and/or any other data to a cloud-based storage platform 116for storage. The user 102 may access any data stored in the cloud-basedstorage platform 116 using the secure analysis application 104 and/orthe one or more secure web containers 108.

System Description

As described above, the user 102 may initiate the secure analysisapplication 104 from the user device 106 (e.g., a local machine such asa laptop, a desktop, a computing device, a mobile device, and/or thelike), which may communicate with a client interface to instantiate oneor more secure web containers 108. The secure web containers 108, theclient interface, and/or the secure analysis application 104 may belocated on a single host machine (e.g., computing device) and/or may bedistributed across a networked group of host machines.

Each secure web container 108 may have storage and/or processingcapabilities as described herein to access web content, websites,web-based applications, and other resources hosted on web servers 112,respectively, on behalf of the user 102 of the user device 106. Thesecure web containers 108 may transcode data received from the webservers 112 to be securely presented to the user 102 at the user device106 via the secure analysis application 104. This allows code from a webserver 112 to be executed in a “sandbox” environment provided by asecure web container 108 instead of the user device 106, while stillallowing the user to view and interact with content from the web server112. Each secure web container 108 may be independently configurable andmay be isolated from other secure web containers 108, including thoseresiding upon a common host machine. By providing a highly isolatedenvironment, each secure web container 108 minimizes the risksassociated with accessing potentially dangerous web content for both theuser device 106 and the secure analysis application infrastructure(e.g., including the plurality of secure web containers 108 and/or thesecure analysis application 104). For example, each secure web container108 may be isolated from the other secure web containers 108, in part,by having separate and transient session data that may be purged at theend of each session.

Furthermore, the user 102 of the user device 106 may simultaneouslylaunch and operate multiple isolated sandbox environments (e.g., secureweb containers 108) within the same user session (e.g., a period of timewhen the user is using the secure analysis application 104), eachrunning a particular configuration of a remote browser provided by thesecure web containers 108. Accordingly, the user 102 may access the sameor different web servers 112 via egress nodes 110 with differentlyconfigured remote browsers simultaneously and independently. This allowsthe user 102 to have increased flexibility in crafting their digitalidentity when accessing web servers 112.

Browser Location

For jurisdictional or other reasons, it may be beneficial to control thephysical location (e.g., IP address, physical processing device and/orstorage device) of each secure web container 108 that acts as a remotebrowser to render or execute web content from a web resource (e.g., aweb server 112). Multiple servers or other hardware for providing secureweb containers 108 may be physically distributed across a region or evenglobally to provide this level of control.

Because multiple locations in the network (e.g., across an organization)may be available for utilization and/or routing by the secure analysisapplication 104, the secure web containers 108, and/or the egress nodes110, a system administrator and/or the user 102 may select a particularbrowser location in the network for each of the secure analysisapplication 104 and/or the secure web container 108, as well as the oneor more egress nodes 110, through which web content and/or informationmay be transmitted and/or routed. Additionally or alternatively,individual users 102 may, in some embodiments, select a specific networklocation for the secure analysis application 104, the secure webcontainers 108, and/or the egress nodes 110 when beginning a new sessionand/or instantiating a secure web container 108.

The secure web container's location may not necessarily be available tothe web servers 130 that are accessed. Instead, an egress node, asdescribed below, may be used to prevent the web servers 130 fromdetermining the location of the secure web container 120 (e.g., browserlocation) or the location of the user's user device 106.

Egress Node

As described above, the secure analysis application 104 and/or thesecure web containers 108 may utilize a plurality of selectable egressnodes 110 through which the web content may be routed. An egress node110 is a node by which an IP packet (e.g., having an HTTP GET method)enters into a public network (e.g., the Internet).

There are many scenarios where the user 102 may not want personallyidentifying information (e.g., their IP address and location, identityinformation, and/or the like) to be known by a web server 112 whenrequesting web content and may thus benefit from masking and/ormodifying his/her digital persona. Furthermore, there may be advantagesto selecting a particular egress node 110 location independently fromthe location of the user device 106 and/or the secure web containers108. For example, web servers 112 may be able to alter the presentationof the web content or even the web content itself based on the perceivedegress node 112 from which a request arrives. This may allow a maliciouswebsite, for example, to selectively expose the user 102 to malignantcode based on their perceived egress node 112 and apparent location.When evaluating the potential threats of a website, the user 102 maythus benefit from being able to change their egress node 112, therebychanging their apparent location. It may be noted that this is but oneof many scenarios where customisable attribution may be beneficial.Information security applications may be improved by this functionality,in that customizable attribution may benefit internal reliability orsecurity testing of a company's own web resources.

As shown in FIG. 1, the secure analysis application 104 may utilizevarious secure web containers 108 (e.g., remote web browsers) and/orvarious egress nodes 110, all of which may be provided by a networkinginfrastructure distributed across multiple regions or even globally(e.g., on separate devices). In some embodiments, a system administratormay allow the user 102 (e.g., an information security researcher) of theuser device 106 to select a location for one or more of the secure webcontainers 108 and/or the egress nodes 110 when the user 102 begins anew session of the secure analysis application 104. The user's choicemay be regionally limited by a specified range (e.g., within thecontinental United States). In some embodiments, the systemadministrator may provision a particular secure web container 108 and/oregress node 110 for utilization by the user 102 during a secure webbrowsing session. If neither the user 102 nor the system administratorspecify a location for the secure web containers 108 and/or the egressnodes 110, a default secure web container 108 and/or egress node 110 maybe automatically provided for routing web content from one or more webservers 112 during a secure web browsing session.

In some embodiments, an egress node 110 may be randomly selected for asession to avoid repeated access that might provoke suspicion from atargeted web server's administrator. The pool of egress nodes 210 fromwhich a randomly selected egress node 210 may be chosen may share commontraits such as region.

While the secure web containers 108, which may receive web content andexecute web code from the web server 112 via one or more egress nodes110, may prevent the web server 112 from determining the location of theuser's user device 106, the selected egress node 110 may prevent the webserver 112 from determining the location of even the secure webcontainer 108. By allowing an egress node 110 to be located in thenetwork separately and independently from the host machine hosting thesecure web container 108 and/or the user device 106, the disclosedprinciples provide increased flexibility in establishing both remotebrowser locations (e.g., for jurisdictional reasons) and apparentlocations (e.g., for probing the web server 112 with customizableattribution information).

In some embodiments, an organization having users of the secure analysisapplication may receive an expandable package (e.g., from the secureanalysis application provider) that enables a system administrator oruser of the organization to create and provide their own egress node 110whenever and wherever they choose (e.g., on an user-provided machineand/or user device 106). This manually-generated egress node 110 maysecurely bind with the secure analysis application and may be disabledafter one or more uses.

Browser Fingerprint

When the user accesses a website (e.g., web content) through a device(e.g., the user device 106), the web server 112 underlying the websitemay receive a browser fingerprint that defines various aspects of thedevice 106. For example, the browser fingerprint may describe the typeof web browser, operating system, language support, plug-ins (includingversion designation), resolution, location, time zone, renderingcapabilities of the user device 106, and/or an identity of the user 102.This information may be useful for a website (e.g., the web server 112)to provide a compatible presentation of web content.

However, utilizing a secure web container 108 and/or an egress node 110during a browsing session may prevent the browser fingerprint of theuser device 106 from being presented to the web server 112. Instead,locations and/or identities associated with the secure web container 108and/or the egress node 110 may be provided to the web server 112 (eventhough the user 102 is accessing the web content via the secure analysisapplication 104 running on the user device 106) to thereby provide acomplete, consistent, and/or credible anonymous identity for the user102.

The secure analysis application 104 and/or the secure web containers 108may comprise and/or communicate with a database (e.g., cloud-basedstorage platform 116) for storing default browser fingerprints that areorganized by apparent location (e.g., as established by a secure webcontainer 108 and/or an egress node 110). The database may be created bydetermining browser fingerprints that are most characteristic of atypical user device accessing the web content so that the user 102 isunlikely to stand out (e.g., is not suspicious) to the web server 112during the browsing session.

The secure analysis application 104 may allow other elements of thebrowser fingerprint (e.g., an operating system, a type and/or locationof web browser provided by the secure web containers 108, a type and/orlocation of an egress node 110, and/or the like) to be altered by asystem administrator and/or the user 102. Certain high-level information(e.g., operating system information, browser information, softwarevendor information, user information, and/or the like) are generallycontained within a user agent string that is placed in the header ofoutgoing messages. These elements are often more easily alterable. Asystem administrator and/or the user 102 may set policies within apolicy database associated with the secure analysis application 104(e.g., cloud-based storage platform 116), where the policies may allowthe user 102 to change certain elements of the user agent informationbefore or even after starting a session of the application.

In some embodiments, the browser fingerprint may be randomly assignedfor a session. This randomly assigned browser fingerprint may beselected from a pool of browser fingerprints which may each potentiallycorrespond with the selected secure web containers 108 and/or selectedegress nodes 110 associated with the session (e.g., as selected by theuser 102, by the system administrator, or randomly).

Translation

As described above, the translation service 114 may be integrated withthe secure analysis application 104 by communicating with the secure webcontainers 108. In many scenarios, a web server 112 may provide textualweb content that is in a different language than desired by the user 102at the user device 106. The secure analysis application 104 may helpenable the translation of web content from the web server 112 withoutalerting and/or directly contacting the web server 130 with an externalweb translation request.

When the user 102 chooses to view a web page having foreign languagetext, the user 102 may send a request specifying the requested webcontent to the web server 112 via the secure analysis application 104and/or the secure web container 108. For example, the request could bean HTTP GET message requesting content and may be routed from the secureweb container 108 to the web server 112 by way of a particular egressnode 110. The secure web container 108 may enable the user 102 tospecify a preferred language for content to be translated into andreceived by the user 102. In some embodiments, the preferred languagemay be established during the initiation of the session associated withthe secure web container 108.

The secure web container 108 may send a modified request to the webserver 112, where identifying information (e.g., user agent information)of the user device 106 is removed and/or replaced with informationassociated with the secure web container 108 and/or the egress node 110through which the request is routed and/or the web content is routed.This request may also be sent through a selectable or randomized egressnode 110 (not shown), as described above.

The secure web container 108 may receive the requested content from theweb server 112 through the egress node 110. The secure web container 108may analyze the received content to identify textual content. If thesecure analysis application 108 detects that the language of theidentified textual content is different from a preferred language asspecified by the user 102, the identified textual content and preferredlanguage may be sent in a translation request to the translation service114. It would also be possible for the secure analysis application tosend all textual content associated with a particular web page throughthe translation service 114 based on pre-configured information.

In some embodiments, the translation service 114 may provide anapplication programming interface (API) for sending and receivinginformation, and the translation request may be an API call. The secureweb container 108 may receive translated textual content from thetranslation service 114. The secure web container 108 may then render afull presentation of requested content using the translated textualcontent (e.g., replacing the initially detected textual content with thetranslated textual content received from the translation service 114).In this manner, the user 102 may then view the requested content in thepreferred language.

Alternatively, the user 102 of the user device 106 may first view thesecure web container's 108 rendering of the web content in its nativelanguage (e.g., untranslated textual content). The user 102 may thenrequest the secure web container 108 to provide translations for some orall of the textual content. The secure web container 108 may thencommunicate with the translation service 114 as described above toobtain the translated textual content and may then re-render apresentation for the viewing via the secure analysis application 104running on the user device 106, having at least some of the textualcontent in the preferred language.

As the translation service 114 does not communicate directly with theweb server 112, the web server 112 may be unaware that any translationis being performed. Instead, the web server 112 may merely detect acontent request from the secure web container 108 (or a correspondingegress node 110) that resembles other requests typically received by theweb server 112. Similarly, the translation service 114 may be unawarethat the textual content was extracted from a particular web page.

Cloud-Based Storage

As described above, the secure analysis application 104 and/or thesecure web container 108 may be integrated with a temporal or persistentcloud-based storage platform 116 capable of storing both transient andpersistent data. In some scenarios, the user 102 may want to store webcontent and/or textual content downloaded from a web server 112 foranalysis or other purposes. However, locally storing these files on theuser device 106 may be non-ideal for various reasons including thesensitivity of the information contained in the files or the potentialfor the content to be malicious in nature.

To avoid resorting to storage on the user device 106 while stillmaintaining their transient and secure properties, secure web containers108 may be securely integrated with the cloud-based storage platform 116as described herein. For example, web content received by the secure webcontainer 108 from the web server 112 may be sent to the storageplatform 116 to be stored even after a session involving the secure webcontainer 108 is completed.

The cloud-based storage platform 116 may then store the content, eitherpermanently or temporarily, and may ensure that the content can only beaccessed from authorized secure web containers 108 and not from otherclients such as a local browser. Accordingly, the cloud-based storageplatform 116 may be one mechanism by which data may securely persistafter the secure web container 108 is collapsed and/or deactivated. Thecontent may be accessed by the same user 102 or by a different userthrough a second secure web container 108-2 and a second user device(not pictured) at a later time.

The cloud-based storage platform 116 may be implemented with multiplelayers to enhance security. In some embodiments, the cloud-based storageplatform 116 may have encrypted data stores having nondescript namingconventions and flat or otherwise obfuscated directory structures.Additionally, the placement of new files within these data stores may berandom or otherwise obscured. The files on the data stores may beencrypted through a variety of techniques. In some embodiments, the datastores may be encrypted using symmetric keys that are centrally managedby the provider of the secure analysis application 104. In otherembodiments, the data stores may be asymmetrically encrypted usingpublic keys provided by an end user, such that only the end user (andnot even the secure analysis application provider) may privately accessthe files within the data store. As the contents of the data store maybe encrypted, the files and directory stored by the data store may notbe directly browsable (e.g., without a mapping table and/or anencryption key). Therefore, unauthorized systems such as a localbrowser, may be restricted from viewing the contents, and even the filedirectory or any other logical representation, associated with the datastore. Accordingly, the data store itself may be conveniently stored ina third-party storage layer (e.g., Amazon's Simple Storage Service(S3)), within near or within a user's physical premises, or otherstorage locations. The cloud-based storage platform 116 may furthercomprise a mapping table linked to the encrypted data stores. In someembodiments, the mapping table 514 may provide a meaningful datastructure and set of file names for the data located in the encrypteddata stores. The mapping table may, in some embodiments, be stored andprovided by the secure analysis application provider.

In some embodiments, the above-described security features (e.g.,encryption, random file placement, obfuscated directory structures) mayall be implemented, and in other embodiments, a subset of the securityfeatures may be implemented in combination. Numerous other securityfeatures may additionally or alternatively be implemented.

The data stores of the cloud-based storage platform 116 may be dividedinto separate classes. For example, some data stores may be persistentwhereas other data stores may be ephemeral or transient. This mayprovide greatly increase flexibility in establishing and enforcing dataretention rules. For example, in some embodiments, a systemadministrator may want to restrict content that is associated with aparticular secure web container, user, or web server from being storedfor more than a certain amount of time. As such, content falling intothis scope may be automatically placed within a transient data store ofthe cloud-based storage platform 116 where it may be deleted after a setamount of time or at a particular date and time. In some scenarios, atransient data store may expire at the end of a session or after a setnumber of web browsing sessions.

The cloud-based storage platform 116 may restrict access to the datathat it contains. For example, the cloud-based storage platform 116 maybe provisioned at an organization level, with portions dedicated toindividual users and other portions acting as shared drives betweenmultiple users or even an entire organization. A system administratorand/or the user 102 may select the geographic region or regions for thephysical locations of the data store(s) used for their organization(e.g., for jurisdictional and/or user policy reasons).

The secure web containers 108 may provide users with file browsers foraccessing the encrypted data store(s) within the cloud-based storageplatform 116. The file browsers may also be used to upload files to athird-party service (not pictured) such as a file analysis service. Thecloud-based storage platform 116 may further provide a secure externalapplication programming interface (API) that allows individuals andorganizations to pull data from or push data to the encrypted datastores without using the secure web containers 108.

The cloud-based storage platform 116 may be configurable by the user 102or system administrators to accommodate many different scenarios. Forexample, a set of stored files may be restricted to a single user whomay re-instantiate her/his secure web container 108-1 to access thecontent. The user 102 may also choose to share folders or particularfiles initially allocated to her/him with other users within anorganization. When sharing data, the user 102 may specify a time periodfor which the data may be shared with another user, or the user 102 mayshare the data indefinitely. In addition, the user 102 may restrictcertain file rights. These file rights may include downloading a sharedfile from the data store (e.g., to their secure web container 108),executing a shared file, editing a shared file, uploading to a sharedfolder, and printing a shared file, among other file rights. The user102 or system administrators within an organization may also configuredata retention rules, such that data is removed from the cloud-basedstorage platform 116 after an established period of time or adeletion-triggering event, as discussed above.

In some embodiments, the cloud-based storage platform 116 may beconfigured by policy to interact with the file system of the secureanalysis application 104 and/or the user device 106. If the systemadministrator enables this interaction, then the user 102 may have theability to transfer content between her/his user device 106 and thecloud-based storage platform 116 (e.g., both upload and download).Conversely, a policy may restrict interaction between the user device106 and the cloud-based storage platform 116, so that users may be ableto download content to the cloud-based storage platform 116 whenvisiting web servers 112 via the secure analysis application 104 and/orthe secure web container 108 but may not be permitted to transfer filesbetween the file system of the user device 106 and/or the secure webcontainer 108 and the cloud-based storage platform 116 in eitherdirection.

Encrypted Logging

Session data that is accumulated during the use of a secure webcontainer 108 may generally be purged from the secure web containerafter the session is complete. However, in some embodiments, log entriescorresponding to the sessions may be stored and compiled in a logdatabase (e.g., cloud-based storage platform 116) before or upon sessioncompletion. For example, the log database may store log entriescorresponding to each session for internal analysis or record keeping(e.g., within an organization associated with the secure analysisapplication 104).

In some embodiments, the log databases may retain log entries for a settime period and/or on a rolling basis (e.g., 90 days) before log entriesare automatically deleted. The log entries may include various types ofdata including user data and session data (e.g., host machineidentifiers, access times, and/or session durations). The log entriesmay also have a parameter indicating the organization to which theybelong. This organization-level separation allows a system administrator(e.g., the user 102) within an organization to establish the particulartypes of data that are logged as well as the period for which differenttypes of logged data are stored for their organization.

Furthermore, the system administrator may provide a public key to thelog database for encrypting their organization's logs. The systemadministrator may subsequently request and receive their encrypted logsthrough an external application programming interface (API) of thenow-encrypted log database. The encrypted logs may then be decryptedwithin the system administrator's local network or on their localmachine through a private key that matches the public key provided tothe log database for encryption. Other encryption systems may beimplemented to ensure that access to the encrypted logs is restricted tothose having the correct credentials (e.g., system administrators withinan organization to which the logs relate).

In some embodiments, the system administrator may increase thegranularity of the data captured and stored within their encrypted logdatabase. For example, logging functionality may be increased to includeuser navigation data (e.g., the web resources accessed, with timestamps), administrative changes to the secure analysis application'sconfiguration, authentication events, session events, and web form postdata (e.g., data provided to web resources).

Computing Architecture

Referring now to FIG. 2, FIG. 2 illustrates an exemplary computingenvironment 200 for providing secure web browsing sessions and anonymoustranslation services as described herein. For example, the computingenvironment 200 may be included in and/or utilized by the user device106 the secure analysis application 104, the secure web containers 108,the egress nodes 110, the web servers 112, the translation service 114,and/or the cloud-based storage platform 116 of FIG. 1, and/or any otherdevice described herein. Additionally, any units and/or subunitsdescribed herein with reference to FIG. 2 may be included in one or moreelements of FIG. 1. The computing environment 200 and/or any of itsunits and/or subunits described herein may include general hardware,specifically-purposed hardware, and/or software.

The computing environment 200 may include, among other elements, aprocessing unit 202, a memory unit 204, an input/output (I/O) unit 206,and/or a communication unit 208. As described herein, each of theprocessing unit 202, the memory unit 204, the I/O unit 206, and/or thecommunication unit 208 may include and/or refer to a plurality ofrespective units, subunits, and/or elements. Furthermore, each of theprocessing unit 202, the memory unit 204, the I/O unit 206, and/or thecommunication unit 208 may be operatively and/or otherwisecommunicatively coupled with each other so as to facilitate thepolitical content communication and audio-visual analysis techniquesdescribed herein.

The processing unit 202 may control any of the one or more units 204,206, 208, as well as any included subunits, elements, components,devices, and/or functions performed by the units 204, 206, 208 includedin the computing environment 200. The processing unit 202 may alsocontrol any unit and/or device included in the system 200 of FIG. 2. Anyactions described herein as being performed by a processor may be takenby the processing unit 202 alone and/or by the processing unit 202 inconjunction with one or more additional processors, units, subunits,elements, components, devices, and/or the like. Additionally, while onlyone processing unit 202 may be shown in FIG. 2, multiple processingunits may be present and/or otherwise included in the computingenvironment 200. Thus, while instructions may be described as beingexecuted by the processing unit 202 (and/or various subunits of theprocessing unit 202), the instructions may be executed simultaneously,serially, and/or by one or multiple processing units 202 in parallel.

In some embodiments, the processing unit 202 may be implemented as oneor more computer processing unit (CPU) chips and/or graphical processingunit (GPU) chips and may include a hardware device capable of executingcomputer instructions. The processing unit 202 may execute instructions,codes, computer programs, and/or scripts. The instructions, codes,computer programs, and/or scripts may be received from and/or stored inthe memory unit 204, the I/O unit 206, the communication unit 208,subunits and/or elements of the aforementioned units, other devicesand/or computing environments, and/or the like. As described herein, anyunit and/or subunit (e.g., element) of the computing environment 200and/or any other computing environment may be utilized to perform anyoperation. Particularly, the computing environment 200 may not include ageneric computing system, but instead may include a customized computingsystem designed to perform the various methods described herein.

In some embodiments, the processing unit 202 may include, among otherelements, subunits such as a profile management unit 210, a contentmanagement unit 212, a location determination unit 214, a graphicalprocessing unit (GPU) 216, a traffic routing unit 218, a translationunit 220, a storage mapping unit 222, and/or a resource allocation unit224. Each of the aforementioned subunits of the processing unit 202 maybe communicatively and/or otherwise operably coupled with each other.

The profile management unit 210 may facilitate generation, modification,analysis, transmission, and/or presentation of a user profile associatedwith a user. For example, the profile management unit 210 may prompt auser via a user device to register by inputting authenticationcredentials, personal information (e.g., an age, a gender, and/or thelike), contact information (e.g., a phone number, a zip code, a mailingaddress, an email address, a name, and/or the like), and/or the like.The profile management unit 210 may receive, process, analyze, organize,and/or otherwise transform any data received from the user and/oranother computing element so as to generate a user profile of a userthat includes personal information, contact information, userpreferences, a photo, a video recording, an audio recording, a textualdescription, a virtual currency balance, a history or log of useractivity, user preferences, settings, and/or the like. In someembodiments, the profile management unit 210 may enable a user to inputdesired settings associated with a web browsing session.

The content management unit 212 may facilitate generation, modification,analysis, transmission, and/or presentation of web content. For example,the content management unit 212 may control the audio-visual environmentand/or appearance of application data and/or web pages during executionof various processes. Web content for which the content management unit212 may be responsible may include advertisements, images, text, themes,audio files, video files, documents, and/or the like. In someembodiments, the content management unit 212 may also interface with athird-party content server and/or memory location for identifying,receiving, transmitting, and/or distributing content to one or moreusers.

The location determination unit 214 may facilitate detection,generation, modification, analysis, transmission, and/or presentation oflocation information. Location information may include globalpositioning system (GPS) coordinates, an Internet protocol (IP) address,a media access control (MAC) address, geolocation information, anaddress, a port number, a zip code, a server number, a proxy name and/ornumber, device information (e.g., a serial number), and/or the like. Insome embodiments, the location determination unit 214 may includevarious sensors, a radar, and/or other specifically-purposed hardwareelements for enabling the location determination unit 214 to acquire,measure, and/or otherwise transform location information. The locationdetermination unit 214 may identify and/or control a location of theuser device, the secure analysis application, the secure web containers,the egress nodes, the web servers, the translation service, and/or thecloud-based storage system as described herein.

The GPU unit 216 may facilitate generation, modification, analysis,processing, transmission, and/or presentation of visual content (e.g.,web content as described above). In some embodiments, the GPU unit 216may be utilized to render visual content, such as a web page, forpresentation on the user device. The GPU unit 216 may also includemultiple GPUs and therefore may be configured to perform and/or executemultiple processes in parallel.

The traffic routing unit 218 may facilitate determination, monitoring,analysis, and control of how data (e.g., web content, and/or the like)is routed throughout the devices described herein and/or the network asa whole. Various devices, such as routers, switches, computing devices,and/or the like may be controlled by the traffic routing unit 218. Insome embodiments, the traffic routing unit 218 may facilitate thetransmission, receipt, modification, and/or processing of datathroughout the network. In some embodiments, the traffic routing unit218 may determine one or more locations in the network through whichdata is to be routed (e.g., a particular secure web container and/or anegress node).

The translation unit 220 may facilitate the translation, transformation,modification, and/or processing of textual content. In some embodiments,the translation unit 220 may enable the translation service 114 totranslate text provided by the secure web container from a firstlanguage into a second language. The translation unit 220 may utilize avariety of text processing functionalities to enable the secure webcontainer to identify and/or extract text included in web content.

The storage mapping unit 222 may facilitate the transmission, receipt,storage, saving, and/or archiving of data in the cloud-based storageplatform as described herein. The storage mapping unit 222 may interfacewith the memory unit 204 and control various subunits of the memory unit204. In some embodiments, the storage mapping unit 222 may controlread/write functionality of various subunits of the memory unit 204based on jurisdiction and/or policy (e.g., user privileges). The storagemapping unit 222 may also include a variety of data distributionfunctionalities so that incoming data, such as web content, textualcontent, and/or usage and/or activity data may be appropriately saved.In some embodiments, the storage mapping unit 222 may further includesecurity measures for securing data stored in the memory unit 204 asdescribed herein.

The resource allocation unit 224 may facilitate the determination,monitoring, analysis, and/or allocation of computing resourcesthroughout the computing environment 200 and/or other computingenvironments. For example, the computing environment 200 may facilitatea high volume of (e.g., multiple) web content requests and/ortransmissions between a large number of supported devices, secureanalysis applications, secure web containers, egress nodes, web servers,cloud-based storage platforms, and/or translation services so that auser may be enabled to initiate a plurality of web browsing sessions. Assuch, computing resources of the computing environment 200 utilized bythe processing unit 202, the memory unit 204, the I/O unit, and/or thecommunication unit 208 (and/or any subunit of the aforementioned units)such as processing power, data storage space, network bandwidth, and/orthe like may be in high demand at various times during operation.Accordingly, the resource allocation unit 224 may be configured tomanage the allocation of various computing resources as they arerequired by particular units and/or subunits of the computingenvironment 200 and/or other computing environments. In someembodiments, the resource allocation unit 224 may include sensors and/orother specially-purposed hardware for monitoring performance of eachunit and/or subunit of the computing environment 200, as well ashardware for responding to the computing resource needs of each unitand/or subunit. In some embodiments, the resource allocation unit 224may utilize computing resources of a second computing environmentseparate and distinct from the computing environment 200 to facilitate adesired operation.

For example, the resource allocation unit 224 may determine a number ofsimultaneous web content requests stemming from a plurality of secureweb containers in a common web browsing session (or in a plurality ofweb browsing sessions). The resource allocation unit 224 may thendetermine that the number of simultaneous web content requests meetsand/or exceeds a predetermined threshold value. Based on thisdetermination, the resource allocation unit 224 may determine an amountof additional computing resources (e.g., processing power, storage spaceof a particular non-transitory computer-readable memory medium, networkbandwidth, and/or the like) required by the processing unit 202, thememory unit 204, the I/O unit 206, the communication unit 208, and/orany subunit of the aforementioned units for enabling safe and efficientoperation of the computing environment 200 while supporting the numberof simultaneous web content requests, as well as transmission of the webcontent. The resource allocation unit 224 may then retrieve, transmit,control, allocate, and/or otherwise distribute determined amount(s) ofcomputing resources to each element (e.g., unit and/or subunit) of thecomputing environment 200 and/or another computing environment.

In some embodiments, factors affecting the allocation of computingresources by the resource allocation unit 224 may include a volume ofweb content requests, a size of the web content, a duration of timeduring which computing resources are required by one or more elements ofthe computing environment 200, and/or the like. In some embodiments,computing resources may be allocated to and/or distributed amongst aplurality of second computing environments included in the computingenvironment 200 based on one or more factors mentioned above. In someembodiments, the allocation of computing resources of the resourceallocation unit 224 may include the resource allocation unit 224flipping a switch, adjusting processing power, adjusting memory size,partitioning a memory element, transmitting data, controlling one ormore input and/or output devices, modifying various communicationprotocols, and/or the like. In some embodiments, the resource allocationunit 224 may facilitate utilization of parallel processing techniquessuch as dedicating a plurality of GPUs included in the processing unit202 for processing web content requests and/or distribution of webcontent between multiple units and/or subunits of the computingenvironment 200 and/or other computing environments.

In some embodiments, the memory unit 204 may be utilized for storing,recalling, receiving, transmitting, and/or accessing various filesand/or information during operation of the computing environment 200.The memory unit 204 may include various types of data storage media suchas solid state storage media, hard disk storage media, and/or the like.The memory unit 204 may include dedicated hardware elements such as harddrives and/or servers, as well as software elements such as cloud-basedstorage drives. For example, the memory unit 204 may include varioussubunits such as an operating system unit 226, an application data unit228, an application programming interface (API) unit 230, a profilestorage unit 232, a content storage unit 234, a cloud storage unit 236,a secure enclave 238, and/or a cache storage unit 240.

The memory unit 204 and/or any of its subunits described herein mayinclude random access memory (RAM), read only memory (ROM), and/orvarious forms of secondary storage. RAM may be used to store volatiledata and/or to store instructions that may be executed by the processingunit 202. For example, the data stored may be a command, a currentoperating state of the computing environment 200, an intended operatingstate of the computing environment 200, and/or the like. As a furtherexample, data stored in the memory unit 204 may include instructionsrelated to various methods and/or functionalities described herein. ROMmay be a non-volatile memory device that may have a smaller memorycapacity than the memory capacity of a secondary storage. ROM may beused to store instructions and/or data that may be read during executionof computer instructions. In some embodiments, access to both RAM andROM may be faster than access to secondary storage. Secondary storagemay be comprised of one or more disk drives and/or tape drives and maybe used for non-volatile storage of data or as an over-flow data storagedevice if RAM is not large enough to hold all working data. Secondarystorage may be used to store programs that may be loaded into RAM whensuch programs are selected for execution. In some embodiments, thememory unit 204 may include one or more databases (e.g., the cloud-basedstorage platform, the web servers, the secure web container, the userdevice, and/or the like) for storing any data described herein.Additionally or alternatively, one or more secondary databases locatedremotely from the computing environment 200 may be utilized and/oraccessed by the memory unit 204.

The operating system unit 226 may facilitate deployment, storage,access, execution, and/or utilization of an operating system utilized bythe computing environment 200 and/or any other computing environmentdescribed herein (e.g., a user device, a secure web container, a webserver, a cloud-based storage platform, and/or a translation service).In some embodiments, the operating system may include various hardwareand/or software elements that serve as a structural framework forenabling the processing unit 202 to execute various operations describedherein. The operating system unit 226 may further store various piecesof information and/or data associated with operation of the operatingsystem and/or the computing environment 200 as a whole, such as a statusof computing resources (e.g., processing power, memory availability,resource utilization, and/or the like), runtime information, modules todirect execution of operations described herein, user permissions,security credentials, and/or the like.

The application data unit 228 may facilitate deployment, storage,access, execution, and/or utilization of an application utilized by thecomputing environment 200 and/or any other computing environmentdescribed herein (e.g., a user device, a secure web container, a webserver, a cloud-based storage platform, and/or a translation service).For example, users may be required to download, access, and/or otherwiseutilize a software application on a user device such as a smartphone inorder for various operations described herein to be performed. As such,the application data unit 228 may store any information and/or dataassociated with the application (e.g., web browser, secure analysisapplication, secure web container, and/or the like). Informationincluded in the application data unit 228 may enable a user to executevarious operations described herein. The application data unit 228 mayfurther store various pieces of information and/or data associated withoperation of the application and/or the computing environment 200 as awhole, such as a status of computing resources (e.g., processing power,memory availability, resource utilization, and/or the like), runtimeinformation, modules to direct execution of operations described herein,user permissions, security credentials, and/or the like.

The API unit 230 may facilitate deployment, storage, access, execution,and/or utilization of information associated with APIs of the computingenvironment 200 and/or any other computing environment described herein(e.g., a user device). For example, computing environment 200 mayinclude one or more APIs for enabling various devices, applications,and/or computing environments to communicate with each other and/orutilize the same data. Accordingly, the API unit 230 may include APIdatabases containing information that may be accessed and/or utilized byapplications and/or operating systems of other devices and/or computingenvironments. In some embodiments, each API database may be associatedwith a customized physical circuit included in the memory unit 204and/or the API unit 230. Additionally, each API database may be publicand/or private, and so authentication credentials may be required toaccess information in an API database.

The profile storage unit 232 may facilitate deployment, storage, access,and/or utilization of information associated with user profiles of usersby the computing environment 200 and/or any other computing environmentdescribed herein (e.g., a user device, a secure web container, a webserver, a cloud-based storage platform, and/or a translation service).For example, the profile storage unit 232 may store one or more user'scontact information, authentication credentials, user preferences, userhistory and/or log of behavior, personal information, locationinformation, received input and/or sensor data, and/or metadata. In someembodiments, the profile storage unit 232 may communicate with theprofile management unit 210 to receive and/or transmit informationassociated with a user's profile.

The content storage unit 234 may facilitate deployment, storage, access,and/or utilization of information associated with requested content bythe computing environment 200 and/or any other computing environmentdescribed herein (e.g., a user device, a secure web container, a webserver, a cloud-based storage platform, and/or a translation service).For example, the content storage unit 234 may store web content (e.g.,one or more images, text, videos, audio content, advertisements, and/ormetadata) to be presented to a user and/or processed during operationsdescribed herein. The content storage unit 234 may store web contentthat may be recalled by the secure web containers, the user device,and/or the web servers during operations described herein. In someembodiments, the content storage unit 234 may communicate with thecontent management unit 212 to receive and/or transmit content filesfrom the web servers.

The cloud storage unit 236 may facilitate deployment, storage, access,analysis, and/or utilization of web content, user information, locationinformation, and/or the like in a cloud-based storage platform asdescribed herein. For example, the cloud storage unit 236 may store webcontent generated, transmitted, received, and/or stored by the computingenvironment 200. In some embodiments, the cloud storage unit 236 maycommunicate with the GPUs 216, the traffic routing unit 218, thetranslation unit 220, and/or the storage mapping unit 222 to facilitatestorage and/or recall of web content and/or other information stored inthe cloud storage unit 236.

The secure enclave 238 may facilitate secure storage of data. In someembodiments, the secure enclave 238 may include a partitioned portion ofstorage media included in the memory unit 204 that is protected byvarious security measures. For example, the secure enclave 238 may behardware secured. In other embodiments, the secure enclave 238 mayinclude one or more firewalls, encryption mechanisms, and/or othersecurity-based protocols. Authentication credentials of a user may berequired prior to providing the user access to data stored within thesecure enclave 238. The secure enclave 238 may include and/or beincluded in the encrypted data stores and/or any other data storedescribed herein.

The cache storage unit 240 may facilitate short-term deployment,storage, access, analysis, and/or utilization of data. For example, thecache storage unit 248 may serve as a short-term storage location fordata so that the data stored in the cache storage unit 248 may beaccessed quickly. In some embodiments, the cache storage unit 240 mayinclude RAM and/or other storage media types that enable quick recall ofstored data. The cache storage unit 240 may included a partitionedportion of storage media included in the memory unit 204.

As described herein, the memory unit 204 and its associated elements maystore any suitable information. Any aspect of the memory unit 204 maycomprise any collection and arrangement of volatile and/or non-volatilecomponents suitable for storing data. For example, the memory unit 204may comprise random access memory (RAM) devices, read only memory (ROM)devices, magnetic storage devices, optical storage devices, and/or anyother suitable data storage devices. In particular embodiments, thememory unit 204 may represent, in part, computer-readable storage mediaon which computer instructions and/or logic are encoded. The memory unit204 may represent any number of memory components within, local to,and/or accessible by a processor.

The I/O unit 206 may include hardware and/or software elements forenabling the computing environment 200 to receive, transmit, and/orpresent information. For example, elements of the I/O unit 206 may beused to receive user input from a user via a user device, present webcontent to the user via the user device, and/or the like. In thismanner, the I/O unit 206 may enable the computing environment 200 tointerface with a human user. As described herein, the I/O unit 206 mayinclude subunits such as an I/O device 242, an I/O calibration unit 244,and/or video driver 246.

The I/O device 242 may facilitate the receipt, transmission, processing,presentation, display, input, and/or output of information as a resultof executed processes described herein. In some embodiments, the I/Odevice 242 may include a plurality of I/O devices. In some embodiments,the I/O device 242 may include one or more elements of a user device, acomputing system, a server, and/or a similar device.

The I/O device 242 may include a variety of elements that enable a userto interface with the computing environment 200. For example, the I/Odevice 242 may include a keyboard, a touchscreen, a touchscreen sensorarray, a mouse, a stylus, a button, a sensor, a depth sensor, a tactileinput element, a location sensor, a biometric scanner, a laser, amicrophone, a camera, and/or another element for receiving and/orcollecting input from a user and/or information associated with the userand/or the user's environment. Additionally and/or alternatively, theI/O device 242 may include a display, a screen, a projector, a sensor, avibration mechanism, a light emitting diode (LED), a speaker, a radiofrequency identification (RFID) scanner, and/or another element forpresenting and/or otherwise outputting data to a user. In someembodiments, the I/O device 242 may communicate with one or moreelements of the processing unit 202 and/or the memory unit 204 toexecute operations described herein. For example, the I/O device 242 mayinclude a display, which may utilize the GPU 216 to present web contentto a user of a user device.

The I/O calibration unit 244 may facilitate the calibration of the I/Odevice 242. For example, the I/O calibration unit 244 may detect and/ordetermine one or more settings of the I/O device 242, and then adjustand/or modify settings so that the I/O device 242 may operate moreefficiently.

In some embodiments, the I/O calibration unit 244 may utilize a videodriver 246 (or multiple video drivers) to calibrate the I/O device 242.For example, the video driver 246 may be installed on a user device sothat the user device may recognize and/or integrate with the I/O device242, thereby enabling web content to be displayed, received, generated,and/or the like. In some embodiments, the I/O device 242 may becalibrated by the I/O calibration unit 244 by based on informationincluded in the video driver 246.

The communication unit 208 may facilitate establishment, maintenance,monitoring, and/or termination of communications (e.g., a videostreaming connection and/or distribution of political content) betweenthe computing environment 200 and other devices such as user devices,the secure analysis application, the secure web containers, the egressnodes, the web servers, the cloud-based storage platform, thetranslation service, other computing environments, third party serversystems, and/or the like. The communication unit 208 may further enablecommunication between various elements (e.g., units and/or subunits) ofthe computing environment 200. In some embodiments, the communicationunit 208 may include a network protocol unit 248, an API gateway 250, anencryption engine 252, and/or a communication device 254. Thecommunication unit 208 may include hardware and/or software elements. Insome embodiments, the communication unit 208 may be utilized to transmitand/or receive web content as described herein.

The network protocol unit 248 may facilitate establishment, maintenance,and/or termination of a communication connection between the computingenvironment 200 and another device by way of a network. For example, thenetwork protocol unit 248 may detect and/or define a communicationprotocol required by a particular network and/or network type.Communication protocols utilized by the network protocol unit 248 mayinclude Wi-Fi protocols, Li-Fi protocols, cellular data networkprotocols, Bluetooth® protocols, WiMAX protocols, Ethernet protocols,powerline communication (PLC) protocols, Voice over Internet Protocol(VoIP), and/or the like. In some embodiments, facilitation ofcommunication between the computing environment 200 and any otherdevice, as well as any element internal to the computing environment200, may include transforming and/or translating data from beingcompatible with a first communication protocol to being compatible witha second communication protocol. In some embodiments, the networkprotocol unit 248 may determine and/or monitor an amount of data trafficto consequently determine which particular network protocol is to beused for establishing a web browsing session, a network connection,distributing web content, transmitting data, and/or performing otheroperations described herein.

The API gateway 250 may facilitate the enablement of other devicesand/or computing environments to access the API unit 230 of the memoryunit 204 of the computing environment 200. For example, a user devicemay access the API unit 230 via the API gateway 250. In someembodiments, the API gateway 250 may be required to validate usercredentials associated with a user of a user device prior to providingaccess to the API unit 230 to the user. The API gateway 250 may includeinstructions for enabling the computing environment 200 to communicatewith another device.

The encryption engine 252 may facilitate translation, encryption,encoding, decryption, and/or decoding of information received,transmitted, and/or stored by the computing environment 200. Using theencryption engine, each transmission of data may be encrypted, encoded,and/or translated for security reasons, and any received data may beencrypted, encoded, and/or translated prior to its processing and/orstorage. In some embodiments, the encryption engine 252 may generate anencryption key, an encoding key, a translation key, and/or the like,which may be transmitted along with any data content.

The communication device 254 may include a variety of hardware and/orsoftware specifically purposed to enable communication between thecomputing environment 200 and another device, as well as communicationbetween elements of the computing environment 200. In some embodiments,the communication device 254 may include one or more radio transceivers,chips, analog front end (AFE) units, antennas, processing units, memory,other logic, and/or other components to implement communicationprotocols (wired or wireless) and related functionality for facilitatingcommunication between the computing environment 200 and any otherdevice. Additionally and/or alternatively, the communication device 254may include a modem, a modem bank, an Ethernet device such as a routeror switch, a universal serial bus (USB) interface device, a serialinterface, a token ring device, a fiber distributed data interface(FDDI) device, a wireless local area network (WLAN) device and/or devicecomponent, a radio transceiver device such as code division multipleaccess (CDMA) device, a global system for mobile communications (GSM)radio transceiver device, a universal mobile telecommunications system(UMTS) radio transceiver device, a long term evolution (LTE) radiotransceiver device, a worldwide interoperability for microwave access(WiMAX) device, and/or another device used for communication purposes.

It is contemplated that the computing elements be provided according tothe structures disclosed herein may be included in integrated circuitsof any type to which their use commends them, such as ROMs, RAM (randomaccess memory) such as DRAM (dynamic RAM), and video RAM (VRAM), PROMs(programmable ROM), EPROM (erasable PROM), EEPROM (electrically erasablePROM), EAROM (electrically alterable ROM), caches, and other memories,and to microprocessors and microcomputers in all circuits including ALUs(arithmetic logic units), control decoders, stacks, registers,input/output (I/O) circuits, counters, general purpose microcomputers,RISC (reduced instruction set computing), CISC (complex instruction setcomputing) and VLIW (very long instruction word) processors, and toanalog integrated circuits such as digital to analog converters (DACs)and analog to digital converters (ADCs). ASICS, PLAs, PALs, gate arraysand specialized processors such as digital signal processors (DSP),graphics system processors (GSP), synchronous vector processors (SVP),and image system processors (ISP) all represent sites of application ofthe principles and structures disclosed herein.

Implementation is contemplated in discrete components or fullyintegrated circuits in silicon, gallium arsenide, or other electronicmaterials families, as well as in other technology-based forms andembodiments. It should be understood that various embodiments of theinvention can employ or be embodied in hardware, software, microcodedfirmware, or any combination thereof. When an embodiment is embodied, atleast in part, in software, the software may be stored in anon-volatile, machine-readable medium.

Networked computing environment such as those provided by acommunications server may include, but are not limited to, computinggrid systems, distributed computing environments, cloud computingenvironment, etc. Such networked computing environments include hardwareand software infrastructures configured to form a virtual organizationcomprised of multiple resources which may be in geographically disperselocations.

In some embodiments, the network described herein may include anywireless and/or wired communications network that facilitatescommunication (e.g., transmission and/or receipt of between thecomputing environment 200 and any other device. For example, the one ormore networks may include an Ethernet network, a cellular network, acomputer network, the Internet, a wireless fidelity (Wi-Fi) network, alight fidelity (Li-Fi) network, a Bluetooth network, a radio frequencyidentification (RFID) network, a near-field communication (NFC) network,a laser-based network, and/or the like.

User Interface

Referring now to FIG. 3, FIG. 3 shows an exemplary graphical interface300 for a secure analysis application that may be presented on a userdevice 302 of a user 304. A user may instantiate multiple secure webcontainers in one common session of the secure analysis application.Each secure web container may correspond with a window displayed withinthe secure analysis application running on the user device 302.

As discussed above, the different secure web containers may havedistinct configuration settings. As shown in FIG. 3, these configurationsettings may be displayed within each window in a message bar 306 toallow the user 304 to track each browsing session more carefully. Insome embodiments, the message bar 306 may include information associatedwith the session such as user agent information 308 (and/or otheraspects of the browser fingerprint), a browser location 310 (e.g., theIP address and/or the regional location of the selected secure webcontainer), and an egress node 312 location (e.g., the IP address and/orthe regional location of the selected egress node). The user may adjustsome or all of these settings by interacting with the message bar 306.Some settings, such as those pertaining to the egress node 312 may beadjusted before initiating a session, and some settings, such as theoperating system, type of web browser and/or other user agentinformation 308 may be may be adjusted either before or during thesession. In some embodiments, some or all of these settings may bepre-defined and fixed by a system administrator. In general, as a usermay have multiple secure analysis application sessions and/or multiplesecure web containers open simultaneously, the message bar 310 may helpthe user remember and preserve the separation of each session. Once aconnection has been established between the user device 302 and a webserver (e.g., a provider of content), web content 314 may be displayedon the user device 302.

Method Descriptions

FIG. 4 shows an exemplary method 400 for performing operationsassociated with securely accessing web content as described herein. Atblock 410, the method 700 may include establishing, using a secureanalysis application running on a user device, a web browsing sessionwith a network, wherein the user device defines a first location in thenetwork. At block 420, the method 400 may include selecting, using thesecure analysis application, a secure web container through which webcontent is to be accessed, wherein the secure web container defines asecond location in the network different than the first location. Atblock 430, the method 400 may include selecting, using the secureanalysis application, an egress node through which the web content is tobe routed, wherein the egress node defines a third location in thenetwork different than the first location and the second location. Atblock 440, the method 400 may include transmitting, using the secureanalysis application and from the secure web container, a request forthe web content to a web server, wherein the request is routed throughthe egress node. At block 450, the method 400 may include receiving, atthe secure web container, the web content, wherein the web content istransmitted from the web server and to the secure web container throughthe egress node. At block 460, the method 400 may include accessing,using the secure analysis application and on the user device, the webcontent at the secure web container.

FIG. 5 shows an exemplary method 500 for performing operationsassociated with generating a score indicating relevance of politicalcontent to a user based on auditory emotional responses of the user asdescribed herein. At block 510, the method 500 may include receiving, ata secure web container, web content. At block 520, the method 500 mayinclude identifying, at the secure web container, text included in theweb content and defining a first language. At block 530, the method 500may include extracting, at the secure web container, the text from theweb content. At block 540, the method 500 may include transmitting, fromthe secure web container, the text to a translation service. At block550, the method 500 may include receiving, from the translation serviceand at the secure web container, translated text defining a secondlanguage different than the first language. At block 560, the method 500may include providing, at the secure web container, modified web contentcomprising the translated text.

Further Comments

While various implementations in accordance with the disclosedprinciples have been described above, it should be understood that theyhave been presented by way of example only, and are not limiting. Thus,the breadth and scope of the implementations should not be limited byany of the above-described exemplary implementations, but should bedefined only in accordance with the claims and their equivalents issuingfrom this disclosure. Furthermore, the above advantages and features areprovided in described implementations, but shall not limit theapplication of such issued claims to processes and structuresaccomplishing any or all of the above advantages.

Various terms used herein have special meanings within the presenttechnical field. Whether a particular term should be construed as such a“term of art,” depends on the context in which that term is used.“Connected to,” “in communication with,” “communicably linked to,” “incommunicable range of” or other similar terms should generally beconstrued broadly to include situations both where communications andconnections are direct between referenced elements or through one ormore intermediaries between the referenced elements, including throughthe Internet or some other communicating network. “Network,” “system,”“environment,” and other similar terms generally refer to networkedcomputing systems that embody one or more aspects of the presentdisclosure. These and other terms are to be construed in light of thecontext in which they are used in the present disclosure and as thoseterms would be understood by one of ordinary skill in the art wouldunderstand those terms in the disclosed context. The above definitionsare not exclusive of other meanings that might be imparted to thoseterms based on the disclosed context.

Words of comparison, measurement, and timing such as “at the time,”“equivalent,” “during,” “complete,” and the like should be understood tomean “substantially at the time,” “substantially equivalent,”“substantially during,” “substantially complete,” etc., where“substantially” means that such comparisons, measurements, and timingsare practicable to accomplish the implicitly or expressly stated desiredresult.

Additionally, the section headings herein are provided for consistencywith the suggestions under 37 C.F.R. 1.77 or otherwise to provideorganizational cues. These headings shall not limit or characterize theimplementations set out in any claims that may issue from thisdisclosure. Specifically and by way of example, although the headingsrefer to a “Technical Field,” such claims should not be limited by thelanguage chosen under this heading to describe the so-called technicalfield. Further, a description of a technology in the “Background” is notto be construed as an admission that technology is prior art to anyimplementations in this disclosure. Neither is the “Summary” to beconsidered as a characterization of the implementations set forth inissued claims. Furthermore, any reference in this disclosure to“implementation” in the singular should not be used to argue that thereis only a single point of novelty in this disclosure. Multipleimplementations may be set forth according to the limitations of themultiple claims issuing from this disclosure, and such claimsaccordingly define the implementations, and their equivalents, that areprotected thereby. In all instances, the scope of such claims shall beconsidered on their own merits in light of this disclosure, but shouldnot be constrained by the headings herein.

Lastly, although similar reference numbers may be used to refer tosimilar elements for convenience, it can be appreciated that each of thevarious example implementations may be considered distinct variations.

What is claimed is:
 1. A computing apparatus defining a first locationin a network and comprising: at least one memory comprisinginstructions; and at least one computing processor configured forexecuting the instructions, wherein the instructions cause the at leastone computing processor to perform the operations of: establishing,using computing instructions comprised in the at least one memory, a webbrowsing session with the network; selecting, using a traffic routingsoftware unit comprised in the at least one computing processor, asecure web container through which web content is to be accessed duringthe web browsing session, wherein the network comprises two or moresecure web containers, and wherein a first secure web container, of thetwo or more secure web containers, is located in a first secure webcontainer location of the network and a second secure web container, ofthe two or more secure web containers, is located in a second secure webcontainer location of the network; selecting, using the traffic routingsoftware unit, an egress node through which the web content is to berouted during the web browsing session, wherein the network comprisestwo or more egress nodes, and wherein a first egress node, of the two ormore egress nodes, is located in a first egress node location of thenetwork and a second egress node, of the two or more egress nodes, islocated in a second egress node location of the network; and providing,via a communication connection between at least one of the two or moresecure web containers and a user device defining a second location inthe network, a user of the user device with secure access to the webcontent, wherein the web content is rendered or accessed at the secureweb container, and wherein providing the user of the user device withthe secure access to the web content comprises manipulating, at thesecure web container, one or more elements of a browser fingerprintpresented to or accessed by a web server associated with the web contentsuch that a characteristic of the user device comprised in themanipulated browser fingerprint and a third location presented to oraccessed by the web server is different from an actual characteristic ofthe user device and the second location, respectively.
 2. The computingapparatus of claim 1, wherein the instructions further cause the atleast one computing processor to perform the operations of: generating,using a content management software unit of the at least one computingprocessor, a request to receive, at the secure web container, second webcontent from a second web server; and transmitting, using the trafficrouting software unit, the request to the secure web container, whereinthe request is transmitted to the web server from the secure webcontainer via the network by routing the request through the egressnode.
 3. The computing apparatus of claim 2, wherein the second webcontent is received at the secure web container from the second webserver via the network in response to transmitting the request to thesecond web server.
 4. The computing apparatus of claim 3, wherein theinstructions further cause the at least one computing processor toperform the operations of: identifying, using a translation softwareunit associated with the secure web container, text comprised in thesecond web content, wherein the text defines a first language;extracting, using the translation software unit, the text from thesecond web content; transmitting, using the translation software unit,the text to a translation service for translation; and receiving, usingthe translation software unit and at the secure web container,translated text defining a second language different than the firstlanguage, wherein providing secure access of the second web content to auser of the computing apparatus comprises accessing the translated textusing the translation software unit.
 5. The computing apparatus of claim4, wherein the instructions further cause the at least one computingprocessor to perform the operations of: storing, using a storage mappingsoftware unit associated with the secure web container, at least one ofthe second web content, the text, and the translated text in acloud-based storage platform.
 6. The computing apparatus of claim 1,wherein the manipulation of the one or more elements of the browserfingerprint is at least partially caused by routing of the web contentaccessed from at least one secure web container through at least oneegress node.
 7. The computing apparatus of claim 1, wherein at least oneof: the first secure web container location is the same as or differentfrom the second secure web container location, or the first egress nodelocation is the same as or different from the second egress nodelocation.
 8. The computing apparatus of claim 1, wherein the firstlocation is the same as or different from at least one of the secondlocation, the third location, the first secure web container location,the second secure web container location, the first egress nodelocation, or the second egress node location.
 9. The computing apparatusof claim 1, wherein the second location is the same as or different fromat least one of the first location, the third location, the first secureweb container location, the second secure web container location, thefirst egress node location, or the second egress node location.
 10. Thecomputing apparatus of claim 1, wherein the third location is the sameas or different from at least one of the first location, the secondlocation, the first secure web container location, the second secure webcontainer location, the first egress node location, or the second egressnode location.
 11. The computing apparatus of claim 1, wherein at leastone of: the characteristic comprised in the manipulated browserfingerprint comprises the third location presented to or accessed by theweb server, or the actual characteristic of the user device comprisesthe second location.
 12. The computing apparatus of claim 1, wherein thethird location is comprised in the manipulated browser fingerprint. 13.The computing apparatus of claim 1, wherein at least one of the firstsecure web container location, the second secure web container location,the first egress node location, the second egress node location, thefirst location, the second location, or the third location is the sameas or different from the at least one of the first secure web containerlocation, the second secure web container location, the first egressnode location, the second egress node location, the first location, thesecond location, or the third location.
 14. The computing apparatus ofclaim 1, wherein at least one of: the secure web container comprises,is, or is comprised in at least one of the first secure web container,the second secure web container, the user device, or the egress node; orthe egress node comprises, is, or is comprised in at least one of thefirst egress node or the second egress node.
 15. A non-transitorycomputer readable medium defining a first location in a network andcomprising code, wherein the code, when executed by at least onecomputing processor of a computing apparatus, causes the at least onecomputing processor to perform the operations of: establishing, usingcomputing instructions comprised in the at least one memory, a webbrowsing session with the network; selecting, using a traffic routingsoftware unit comprised in the at least one computing processor, asecure web container through which web content is to be accessed duringthe web browsing session, wherein the network comprises two or moresecure web containers, and wherein a first secure web container, of thetwo or more secure web containers, is located in a first secure webcontainer location of the network and a second secure web container, ofthe two or more secure web containers, is located in a second secure webcontainer location of the network; selecting, using the traffic routingsoftware unit, an egress node through which the web content is to berouted during the web browsing session, wherein the network comprisestwo or more egress nodes, and wherein a first egress node, of the two ormore egress nodes, is located in a first egress node location of thenetwork and a second egress node, of the two or more egress nodes, islocated in a second egress node location of the network; and providing,via a communication connection between at least one of the two or moresecure web containers and a user device defining a second location inthe network, a user of the user device with secure access to the webcontent, wherein the web content is rendered or accessed at the secureweb container, and wherein providing the user of the user device withthe secure access to the web content comprises manipulating, at thesecure web container, one or more elements of a browser fingerprintpresented to or accessed by a web server associated with the web contentsuch that a characteristic of the user device comprised in themanipulated browser fingerprint and a third location presented to oraccessed by the web server is different from an actual characteristic ofthe user device and the second location, respectively.
 16. Thenon-transitory computer readable medium of claim 15, wherein thenon-transitory computer readable medium further comprises code that,when executed by the at least one computing processor of a video contentserver, causes the at least one computing processor to perform theoperations of: generating, using a content management software unit ofthe at least one computing processor, a request to receive, at thesecure web container, second web content from a second web server; andtransmitting, using the traffic routing software unit, the request tothe secure web container, wherein the request is transmitted to the webserver from the secure web container via the network by routing therequest through the egress node.
 17. The non-transitory computerreadable medium of claim 16, wherein the second web content is receivedat the secure web container from the second web server via the networkin response to transmitting the request to the second web server. 18.The non-transitory computer readable medium of claim 17, wherein thenon-transitory computer readable medium further comprises code that,when executed by the at least one computing processor of the videocontent server, causes the at least one computing processor to performthe operations of: identifying, using a translation software unitassociated with the secure web container, text comprised in the secondweb content, wherein the text defines a first language; extracting,using the translation software unit, the text from the second webcontent; transmitting, using the translation software unit, the text toa translation service for translation; and receiving, using thetranslation software unit and at the secure web container, translatedtext defining a second language different than the first language,wherein providing secure access of the second web content to a user ofthe computing apparatus comprises accessing the translated text usingthe translation software unit.
 19. The non-transitory computer readablemedium of claim 18, wherein the non-transitory computer readable mediumfurther comprises code that, when executed by the at least one computingprocessor of the video content server, causes the at least one computingprocessor to perform the operations of: storing, using a storage mappingsoftware unit associated with the secure web container, at least one ofthe second web content, the text, and the translated text in acloud-based storage platform.
 20. The non-transitory computer readablemedium of claim 15, wherein the manipulation of the one or more elementsof the browser fingerprint is at least partially caused by routing ofthe web content accessed from at least one secure web container throughat least one egress node.
 21. The non-transitory computer readablemedium of claim 15, wherein at least one of: the first secure webcontainer location is the same as or different from the second secureweb container location, or the first egress node location is the same asor different from the second egress node location.
 22. Thenon-transitory computer readable medium of claim 15, wherein the firstlocation is the same as or different from at least one of the secondlocation, the third location, the first secure web container location,the second secure web container location, the first egress nodelocation, or the second egress node location.
 23. The non-transitorycomputer readable medium of claim 15, wherein the second location is thesame as or different from at least one of the first location, the thirdlocation, the first secure web container location, the second secure webcontainer location, the first egress node location, or the second egressnode location.
 24. The non-transitory computer readable medium of claim15, wherein the third location is the same as or different from at leastone of the first location, the second location, the first secure webcontainer location, the second secure web container location, the firstegress node location, or the second egress node location.
 25. Thenon-transitory computer readable medium of claim 15, wherein at leastone of: the characteristic comprised in the manipulated browserfingerprint comprises the third location presented to or accessed by theweb server, or the actual characteristic of the user device comprisesthe second location.
 26. The non-transitory computer readable medium ofclaim 15, wherein the third location is comprised in the manipulatedbrowser fingerprint.
 27. The non-transitory computer readable medium ofclaim 15, wherein at least one of the first secure web containerlocation, the second secure web container location, the first egressnode location, the second egress node location, the first location, thesecond location, or the third location is the same as or different fromthe at least one of the first secure web container location, the secondsecure web container location, the first egress node location, thesecond egress node location, the first location, the second location, orthe third location.
 28. The non-transitory computer readable medium ofclaim 15, wherein at least one of: the secure web container comprises,is, or is comprised in at least one of the first secure web container,the second secure web container, the user device, or the egress node; orthe egress node comprises, is, or is comprised in at least one of thefirst egress node or the second egress node.
 29. A method comprising:establishing, using computing instructions comprised in at least onememory of a computing apparatus defining a first location in a network,a web browsing session with the network; selecting, using a trafficrouting software unit comprised in at least one computing processor ofthe computing apparatus, a secure web container through which webcontent is to be accessed during the web browsing session, wherein thenetwork comprises two or more secure web containers, and wherein a firstsecure web container, of the two or more secure web containers, islocated in a first secure web container location of the network and asecond secure web container, of the two or more secure web containers,is located in a second secure web container location of the network;selecting, using the traffic routing software unit, an egress nodethrough which the web content is to be routed during the web browsingsession, wherein the network comprises two or more egress nodes, andwherein a first egress node, of the two or more egress nodes, is locatedin a first egress node location of the network and a second egress node,of the two or more egress nodes, is located in a second egress nodelocation of the network; and providing, via a communication connectionbetween at least one of the two or more secure web containers and a userdevice defining a second location in the network, a user of the userdevice with secure access to the web content, wherein the web content isrendered or accessed at the secure web container, and wherein providingthe user of the user device with the secure access to the web contentcomprises manipulating, at the secure web container, one or moreelements of a browser fingerprint presented to or accessed by a webserver associated with the web content such that a characteristic of theuser device comprised in the manipulated browser fingerprint and a thirdlocation presented to or accessed by the web server is different from anactual characteristic of the user device and the second location,respectively.
 30. The method of claim 29, further comprising:generating, using a content management software unit of the at least onecomputing processor, a request to receive, at the secure web container,second web content from a second web server; and transmitting, using thetraffic routing software unit, the request to the secure web container,wherein the request is transmitted to the web server from the secure webcontainer via the network by routing the request through the egressnode.
 31. The method of claim 30, further comprising: receiving, usingthe traffic routing software unit, the second web content at the secureweb container from the second web server via the network in response totransmitting the request to the second web server.
 32. The method ofclaim 31, further comprising: identifying, using a translation softwareunit associated with the secure web container, text comprised in thesecond web content, wherein the text defines a first language;extracting, using the translation software unit, the text from thesecond web content; transmitting, using the translation software unit,the text to a translation service for translation; and receiving, usingthe translation software unit and at the secure web container,translated text defining a second language different than the firstlanguage, wherein providing secure access of the second web content to auser of the computing apparatus comprises accessing the translated textusing the translation software unit.
 33. The method of claim 29, furthercomprising: storing, using a storage mapping software unit associatedwith the secure web container, at least one of the second web content,the text, and the translated text in a cloud-based storage platform. 34.The method of claim 29, wherein the manipulation of the one or moreelements of the browser fingerprint is at least partially caused byrouting of the web content accessed from at least one secure webcontainer through at least one egress node.
 35. The method of claim 29,wherein at least one of: the first secure web container location is thesame as or different from the second secure web container location, orthe first egress node location is the same as or different from thesecond egress node location.
 36. The method of claim 29, wherein thefirst location is the same as or different from at least one of thesecond location, the third location, the first secure web containerlocation, the second secure web container location, the first egressnode location, or the second egress node location.
 37. The method ofclaim 29, wherein the second location is the same as or different fromat least one of the first location, the third location, the first secureweb container location, the second secure web container location, thefirst egress node location, or the second egress node location.
 38. Themethod of claim 29, wherein the third location is the same as ordifferent from at least one of the first location, the second location,the first secure web container location, the second secure web containerlocation, the first egress node location, or the second egress nodelocation.
 39. The method of claim 29, wherein at least one of: thecharacteristic comprised in the manipulated browser fingerprintcomprises the third location presented to or accessed by the web server,or the actual characteristic of the user device comprises the secondlocation.
 40. The method of claim 29, wherein the third location iscomprised in the manipulated browser fingerprint.
 41. The method ofclaim 29, wherein at least one of the first secure web containerlocation, the second secure web container location, the first egressnode location, the second egress node location, the first location, thesecond location, or the third location is the same as or different fromthe at least one of the first secure web container location, the secondsecure web container location, the first egress node location, thesecond egress node location, the first location, the second location, orthe third location.
 42. The method of claim 29, wherein at least one of:the secure web container comprises, is, or is comprised in at least oneof the first secure web container, the second secure web container, theuser device, or the egress node; or the egress node comprises, is, or iscomprised in at least one of the first egress node or the second egressnode.